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Literature DB >> 23321691

Why can artificial membranes be fabricated so rapidly in microfluidics?

Shashi Thutupalli¹, Jean-Baptiste Fleury, Audrey Steinberger, Stephan Herminghaus, Ralf Seemann.

Abstract

Droplet interface bilayers are a convenient tool to produce and explore lipid membrane properties. We discuss why their formation time in microfluidics can be three to six orders of magnitude faster compared to conventional bulk settings.

Entities: Chemical

Mesh：

Substances：

Year: 2013 PMID： 23321691 DOI： 10.1039/c2cc38867g

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

8 in total

1. Tuning active emulsion dynamics via surfactants and topology.

Authors: Shashi Thutupalli; Stephan Herminghaus
Journal: Eur Phys J E Soft Matter Date: 2013-08-29 Impact factor: 1.890

2. Evaporation-induced monolayer compression improves droplet interface bilayer formation using unsaturated lipids.

Authors: Guru A Venkatesan; Graham J Taylor; Colin M Basham; Nathan G Brady; C Patrick Collier; Stephen A Sarles
Journal: Biomicrofluidics Date: 2018-03-01 Impact factor: 2.800

3. Investigating the effect of phospholipids on droplet formation and surface property evolution in microfluidic devices for droplet interface bilayer (DIB) formation.

Authors: Elanna B Stephenson; Ricardo García Ramírez; Sean Farley; Katherine Adolph-Hammond; Gihyun Lee; John M Frostad; Katherine S Elvira
Journal: Biomicrofluidics Date: 2022-08-23 Impact factor: 3.258

4. Flowing droplet interface bilayers: A microfluidic tool to control droplet trajectories and to study mechanical properties of unsupported lipid bilayers.

Authors: Cornelia Walter; Ralf Seemann; Jean-Baptiste Fleury
Journal: Biomicrofluidics Date: 2020-07-28 Impact factor: 2.800

Why can artificial membranes be fabricated so rapidly in microfluidics?

1. Tuning active emulsion dynamics via surfactants and topology.

2. Evaporation-induced monolayer compression improves droplet interface bilayer formation using unsaturated lipids.

3. Investigating the effect of phospholipids on droplet formation and surface property evolution in microfluidic devices for droplet interface bilayer (DIB) formation.

4. Flowing droplet interface bilayers: A microfluidic tool to control droplet trajectories and to study mechanical properties of unsupported lipid bilayers.

5. Simultaneous measurement of surface and bilayer tension in a microfluidic chip.

6. Droplet-interface-bilayer assays in microfluidic passive networks.

7. Direct proof of spontaneous translocation of lipid-covered hydrophobic nanoparticles through a phospholipid bilayer.

8. From dynamic self-organization to avalanching instabilities in soft-granular threads.